#!/bin/bash
#
# Developed by Fred Weinhaus 6/29/2021 .......... revised 7/5/2021
#
# ------------------------------------------------------------------------------
# 
# Licensing:
# 
# Copyright © Fred Weinhaus
# 
# My scripts are available free of charge for non-commercial use, ONLY.
# 
# For use of my scripts in commercial (for-profit) environments or 
# non-free applications, please contact me (Fred Weinhaus) for 
# licensing arrangements. My email address is fmw at alink dot net.
# 
# If you: 1) redistribute, 2) incorporate any of these scripts into other 
# free applications or 3) reprogram them in another scripting language, 
# then you must contact me for permission, especially if the result might 
# be used in a commercial or for-profit environment.
# 
# My scripts are also subject, in a subordinate manner, to the Imageconvert 
# license, which can be found at: http://www.imageconvert.org/script/license.php
# 
# ------------------------------------------------------------------------------
# 
####
#
# USAGE: unrotate3 [-m mode] [-f fuzzval] [-c coords] [-b bcolor] [-d discard] 
# [-k kind] [-t trimtype] [-F fuzztrim] [-r rotate] [-g graphic] [-G gcolor] 
# infile outfile
# USAGE: unrotate2 [-h or -help]
# 
# OPTIONS:
# 
# -m     mode          mode of unrotate; clockwise (c), counterclockwise (cc), 
#                      landscape (l) or portrait (p), aspect (a), smallest (s); 
#                      default=smallest
# -f     fuzzval       fuzz value for floodfilling the background to separate 
#                      image from background; 0<=integer<=100; default=15
# -c     coords        pixel coordinate to extract background color and seed 
#                      location for flood fill; may be expressed as gravity 
#                      value (NorthWest, etc)or as "x,y" value; default is 
#                      NorthWest=(0,0)
# -b     bcolor        background color to use instead of option -c;
#                      any valid IM color; default is to use option -c
# -d     discard       discard any region that has an area smaller than
#                      this size; integer>0; default=1000
# -k     kind          kind of unrotate warp; affine (a) or rigid (r); 
#                      default=affine
# -t     trimtype      type of trimming to apply to the output; choices are 
#                      outer, inner or none; default=none
# -F     fuzztrim      fuzz value for trimming the output image; 
#                      0<=integer<=100; default=0
# -r     rotate        rotate the output image by 90, 180 or 270;
#                      default=no extra rotation
# -g     graphic       save graphic images showing floodfilled mask or vertices
#                      on the image; choices are mask, vertices or both; 
#                      default=no graphic; graphic images will be named for
#                      the input with "_mask.gif" and "_vertices.png" appended
# -G     gcolor        color for the vertices in the graphic image;
#                      any valid IM color; default=red

  
# 
###
# 
# NAME: UNROTATE2 
#  
# PURPOSE: To unrotate a rotated image and trim the surrounding border.
# 
# DESCRIPTION: UNROTATE3 attempts to automatically unrotate the image. It 
# assumes that the image contains a relatively constant color background 
# area around the rotated data that is not too similar in color to the color 
# near the boundary of the image data and especially not near the corners. 
# The user is expected to identify the background color or a coordinate 
# within the background region for the algorithm to extract the background 
# color. A fuzz value should be specified when the background color is not 
# uniform. A mask image is then created by a fuzzy flood fill. The extreme 
# X and Y (min and max location) pixels are determined from the mask in 
# order to find the four corners of the image. The dimensions of the image 
# are then found from the four corners and these dimensions are used for the 
# output image. The two sets of four points are then used as control points 
# to do either an Affine warp or a Rigid Affine warp to effectively unrotate 
# the image. For mode=aspect, the aspect ratio of the input image will 
# determine the orientation of the output. This may not be an accurate 
# measure, if the input image is largely padded. When mode=smallest, the 
# process will unrotate by the smaller of the two directions (clockwise or 
# counterclockwise). This will produce the correct result only if the input 
# image was rotated by less than 45 degrees. When kind=affine, a full affine 
# warp will be used, which may cause some skew change. When kind=rigid, a 
# rigid affine warp will be used, which is rotation and scale with no skew. 
# Either may leave a bit of border, which may mitigated with the trim option.
# 
# 
# Arguments: 
# 
# -m mode ... MODE of orientation of the image. Choices are clockwise (c), 
# counterclockwise(cc), landscape (l), portrait (p), aspect (a) or 
# smallest (s). The default=smallest (of the two rotation directions).
# 
# -f fuzzval... FUZZVAL is the fuzz value for flood filling the 
# background in order to separate the image from the background. Values are 
# 0<=integer<=100. The default=15.
# 
# -c coords ... COORDS are the pixel coordinates to identify the background 
# color and to seed the location for the flood fill. It may be expressed as 
# a gravity value (NorthWest, etc) or as an "x,y" value. The default is 
# NorthWest, i.e., 0,0.
# 
# -b bcolor ... BCOLOR is the background color to use instead of option -c.
# Any valid IM color is allowed. The default is to use option -c.
# 
# -d discard ... DISCARD any region that has an area smaller than this size 
# when identifying the largest white area in the mask representing the image 
# region. That is merge small regions into its surrounding color. Values are 
# integer>0. The default=1000.
# 
# -k kind ... KIND of unrotate warp. Choices are: affine (a) or rigid (r). 
# The default=affine.
# 
# -t trimtype ... TRIMTYPE is the type of trimming to apply to the output. 
# The choices are outer (0), inner (i) or none (n). The default=outer.
# 
# -F fuzztrim ... FUZZTRIM is the fuzz value for trimming the output image. 
# Values are 0<=integer<=100. The default=0.
# 
# -r rotate ... ROTATE specifies to rotate the output image by 90, 180 or 270.
# The default is no extra rotation.
# 
# -g graphic ... GRAPHIC saves graphic images showing floodfilled mask or 
# vertices on the image. The choices are: mask (m), vertices (v) or both (b). 
# The default=no graphic. The graphic images will be named for the input 
# with "_mask.gif" and "_vertices.png" appended.
# 
# -G gcolor GCOLOR is the color for the vertices in the graphic image.
# Any valid IM color. The default=red.
# 
# LIMITATIONS: This script may not perform well on nearly square images and 
# may be off by increments of 90 degrees even for rectangular images. It is 
# important that the fuzzy floodfill not cut off the corners of the image.
# 
# CAVEAT: No guarantee that this script will work on all platforms, 
# nor that trapping of inconsistent parameters is complete and 
# foolproof. Use At Your Own Risk. 
# 
######
#

# set default values 
mode="smallest"				# clockwise, counterclockwise, landscape, portrait, aspect, smallest
fuzzval=15				    # fuzz value for floodfill
coords="0,0"				# coords to get background color
bcolor=""					# background color
discard=1000				# maximum area to discard
trimtype="none"			    # none, inner or outer trim
fuzztrim=0					# fuzz value for trimming
rotate=0					# rotate image by 0, 90, 180 or 270
kind="affine"				# affine or rigid
graphic=""				    # mask or vertices image
gcolor="red"				# vertices color

# set directory for temporary files
# tmpdir="/tmp"
tmpdir="."

# set up functions to report Usage and Usage with Description
PROGNAME=`type $0 | awk '{print $3}'`  # search for executable on path
PROGDIR=`dirname $PROGNAME`            # extract directory of program
PROGNAME=`basename $PROGNAME`          # base name of program
usage1() 
	{
	echo >&2 ""
	echo >&2 "$PROGNAME:" "$@"
	sed >&2 -e '1,/^####/d;  /^###/g;  /^#/!q;  s/^#//;  s/^ //;  4,$p' "$PROGDIR/$PROGNAME"
	}
usage2() 
	{
	echo >&2 ""
	echo >&2 "$PROGNAME:" "$@"
	sed >&2 -e '1,/^####/d;  /^######/g;  /^#/!q;  s/^#*//;  s/^ //;  4,$p' "$PROGDIR/$PROGNAME"
	}

# function to report error messages
errMsg()
	{
	echo ""
	echo $1
	echo ""
	usage1
	exit 1
	}

# function to test for minus at start of value of second part of option 1 or 2
checkMinus()
	{
	test=`echo "$1" | grep -c '^-.*$'`   # returns 1 if match; 0 otherwise
    [ $test -eq 1 ] && errMsg "$errorMsg"
	}

# test for correct number of arguments and get values
if [ $# -eq 0 ]
	then
	# help information
	echo ""
	usage2
	exit 0
elif [ $# -gt 26 ]
	then
	errMsg "--- TOO MANY ARGUMENTS WERE PROVIDED ---"
else
	while [ $# -gt 0 ]
		do
		# get parameters
		case "$1" in
	  -h|-help)    # help information
				   echo ""
				   usage2
				   ;;
			-m)    # mode
				   shift  # to get the next parameter
				   # test if parameter starts with minus sign 
				   errorMsg="--- INVALID MODE SPECIFICATION ---"
				   checkMinus "$1"
				   mode="$1"
				   mode=`echo "$mode" | tr "[:upper:]" "[:lower:]"`
				   case "$mode" in 
						clockwise|c) mode="clockwise" ;;
						counterclockwise|cc) mode="counterclockwise" ;;
						landscape|l) mode="landscape" ;;
						portrait|p) mode="portrait" ;;
						aspect|a) mode="aspect" ;;
						smallest|s) mode="smallest" ;;
						*) errMsg "--- MODE=$mode IS AN INVALID VALUE ---" 
					esac
				   ;;
			-f)    # fuzzflood
				   shift  # to get the next parameter
				   # test if parameter starts with minus sign 
				   errorMsg="--- INVALID FUZZFLOOD SPECIFICATION ---"
				   checkMinus "$1"
				   fuzzflood=`expr "$1" : '\([0-9]*\)'`
				   [ "$fuzzflood" = "" ] && errMsg "--- FUZZFLOOD=$fuzzflood MUST BE A NON-NEGATIVE INTEGER VALUE (with no sign) ---"
				   testA=`echo "$fuzzflood < 0" | bc`
				   testB=`echo "$fuzzflood > 100" | bc`
				   [ $testA -eq 1 -a $testB -eq 1 ] && errMsg "--- FUZZFLOOD=$fuzzflood MUST BE A NON-NEGATIVE INTEGER VALUE BETWEEN 0 AND 100 ---"
				   ;;
			-c)    # coords
				   shift  # to get the next parameter
				   # test if parameter starts with minus sign 
				   errorMsg="--- INVALID COORDS SPECIFICATION ---"
				   checkMinus "$1"
				   coords=$1
				   # further testing done later
				   ;;
			-b)    # bcolor
				   shift  # to get the next parameter
				   # test if parameter starts with minus sign
				   errorMsg="--- INVALID BCOLOR SPECIFICATION ---"
				   checkMinus "$1"
				   bcolor=$1
				   ;;
			-d)    # discard
				   shift  # to get the next parameter
				   # test if parameter starts with minus sign 
				   errorMsg="--- INVALID DISCARD SPECIFICATION ---"
				   checkMinus "$1"
				   discard=`expr "$1" : '\([0-9]*\)'`
				   [ "$discard" = "" ] && errMsg "--- DISCARD=$discard MUST BE A NON-NEGATIVE INTEGER VALUE (with no sign) ---"
				   testA=`echo "$discard < 1" | bc`
				   [ $testA -eq 1 ] && errMsg "--- DISCARD=$discard MUST BE A POSITIVE INTEGER ---"
				   ;;
			-k)    # kind
				   shift  # to get the next parameter
				   # test if parameter starts with minus sign 
				   errorMsg="--- INVALID KIND SPECIFICATION ---"
				   checkMinus "$1"
				   kind="$1"
				   kind=`echo "$kind" | tr "[:upper:]" "[:lower:]"`
				   case "$kind" in 
						affine|a) kind="affine" ;;
						rigid|r) kind="rigid" ;;
						*) errMsg "--- KIND=$kind IS AN INVALID VALUE ---" 
					esac
				   ;;
			-t)    # trimtype
				   shift  # to get the next parameter
				   # test if parameter starts with minus sign 
				   errorMsg="--- INVALID TRIMTYPE SPECIFICATION ---"
				   checkMinus "$1"
				   trimtype="$1"
				   trimtype=`echo "$trimtype" | tr "[:upper:]" "[:lower:]"`
				   case "$trimtype" in 
						outer|o) trimtype="outer" ;;
						inner|i) trimtype="inner" ;;
						none|n) trimtype="none" ;;
						*) errMsg "--- TRIMTYPE=$trimtype IS AN INVALID VALUE ---" 
					esac
				   ;;
			-F)    # fuzztrim
				   shift  # to get the next parameter
				   # test if parameter starts with minus sign 
				   errorMsg="--- INVALID FUZZTRIM SPECIFICATION ---"
				   checkMinus "$1"
				   fuzztrim=`expr "$1" : '\([0-9]*\)'`
				   [ "$fuzztrim" = "" ] && errMsg "--- FUZZTRIM=$fuzztrim MUST BE A NON-NEGATIVE INTEGER VALUE (with no sign) ---"
				   testA=`echo "$fuzztrim < 0" | bc`
				   testB=`echo "$fuzztrim > 100" | bc`
				   [ $testA -eq 1 -a $testB -eq 1 ] && errMsg "--- FUZZTRIM=$fuzztrim MUST BE A NON-NEGATIVE INTEGER VALUE BETWEEN 0 AND 100 ---"
				   ;;
			-r)    # rotate
				   shift  # to get the next parameter
				   # test if parameter starts with minus sign 
				   errorMsg="--- INVALID ROTATE SPECIFICATION ---"
				   checkMinus "$1"
				   rotate="$1"
				   rotate=`echo "$rotate" | tr "[:upper:]" "[:lower:]"`
				   case "$rotate" in 
						0) rotate="0" ;;
						90) rotate="90" ;;
						180) rotate="180" ;;
						270) rotate="270" ;;
						*) errMsg "--- ROTATE=$rotate IS AN INVALID VALUE ---" 
					esac
				   ;;
			-g)    # graphic
				   shift  # to get the next parameter
				   # test if parameter starts with minus sign 
				   errorMsg="--- INVALID GRAPHIC SPECIFICATION ---"
				   checkMinus "$1"
				   graphic="$1"
				   graphic=`echo "$graphic" | tr "[:upper:]" "[:lower:]"`
				   case "$graphic" in 
						mask|m) graphic="mask" ;;
						vertices|v) graphic="vertices" ;;
						both|b) graphic="both" ;;
						*) errMsg "--- GRAPHIC=$graphic IS AN INVALID VALUE ---" 
					esac
				   ;;
			-G)    # gcolor
				   shift  # to get the next parameter
				   # test if parameter starts with minus sign
				   errorMsg="--- INVALID GCOLOR SPECIFICATION ---"
				   checkMinus "$1"
				   gcolor=$1
				   ;;
			 -)    # STDIN and end of arguments
				   break
				   ;;
			-*)    # any other - argument
				   errMsg "--- UNKNOWN OPTION ---"
				   ;;
			*)     # end of arguments
				   break
				   ;;
		esac
		shift   # next option
	done
	# get infile and outfile
	infile="$1"
	outfile="$2"
fi

# test that infile provided
[ "$infile" = "" ] && errMsg "NO INPUT FILE SPECIFIED"

# test that outfile provided
[ "$outfile" = "" ] && errMsg "NO OUTPUT FILE SPECIFIED"

# get infile name
inname=`convert "$infile" -format "%t" info:`

# function to merge list of in_pts and list of out_pts into alternating format for control points
function mergePoints
	{
	inArr=($1)
	outArr=($2)
	num_in=${#inArr[*]}
	num_out=${#outArr[*]}
	[ $num_in -ne $num_out ] && errMsg "--- UNEQUAL IN AND OUT CONTROL POINTS ---"
	cpts=""
	for ((i=0; i<num_in; i++)); do
		in="${inArr[$i]}"
		out="${outArr[$i]}"
		cpts="$cpts $in $out"
	done
	}

# function to compute the distance between two points
function computeDistance
	{
	pt1="$1"
	pt2="$2"
	x1=`echo "$pt1" | cut -d, -f1`
	y1=`echo "$pt1" | cut -d, -f2`
	x2=`echo "$pt2" | cut -d, -f1`
	y2=`echo "$pt2" | cut -d, -f2`
	dist=`convert xc: -format "%[fx:hypot(($y2-$y1),($x2-$x1)))]" info:`
	}

# function to compute the absolute value of the angle of a line from pt1 to pt2
function computeAbsAngle
	{
	pt1="$1"
	pt2="$2"
	x1=`echo "$pt1" | cut -d, -f1`
	y1=`echo "$pt1" | cut -d, -f2`
	x2=`echo "$pt2" | cut -d, -f1`
	y2=`echo "$pt2" | cut -d, -f2`
	angle=`convert xc: -format "%[fx:abs((180/pi)*atan2(($y2-$y1),($x2-$x1)))]" info:`
	#echo "angle=$angle"
	}


dir="$tmpdir/UNROTATE3.$$"

mkdir "$dir" || errMsg "--- FAILED TO CREATE TEMPORARY FILE DIRECTORY ---"
trap "rm -rf $dir; exit 0" 0
trap "rm -rf $dir; exit 1" 1 2 3 15

# read the input image into the temporary cached image and test if valid
convert -quiet -regard-warnings "$infile" -alpha off +repage $dir/tmpI.mpc ||
	errMsg  "--- FILE $infile DOES NOT EXIST OR IS NOT AN ORDINARY FILE, NOT READABLE OR HAS ZERO SIZE  ---"

# get im_version
im_version=`convert -list configure | \
	sed '/^LIB_VERSION_NUMBER */!d; s//,/;  s/,/,0/g;  s/,0*\([0-9][0-9]\)/\1/g' | head -n 1`

# test if coords provided as x,y
# coords="" if test fails and have other characters such as northwest
coords1=`expr "$coords" : '\([0-9]*,[0-9]*\)'`

# get color at user specified location
if [ "$bcolor" = "" -a "$coords" = "" ]; then
	coords="0,0"
elif [ "$bcolor" != "" ]; then
	coords="0,0"
elif [ "$coords1" != "" ]; then
	x=`echo "$coords1" | cut -d, -f1`
	y=`echo "$coords1" | cut -d, -f2`
	# account for pad of 1
	x=$((x+1))	
	y=$((y+1))	
	coords="$x,$y"
	bcolor=`convert $dir/tmpI.mpc -format "%[pixel:u.p{$coords}]" info:`
elif [ "$coords1" = "" ]; then
	widthm1=`convert xc: -format "%[fx:$width-1]" info:`
	heightm1=`convert xc: -format "%[fx:$height-1]" info:`
	midwidth=`convert xc: -format "%[fx:round(($width-1))/2]" info:`
	midheight=`convert xc: -format "%[fx:round(($height-1))/2]" info:`
	coords=`echo "$coords" | tr "[:upper:]" "[:lower:]"`
	case "$coords" in
		''|nw|northwest) coords="0,0" ;;
		n|north)         coords="$midwidth,0" ;;
		ne|northeast)    coords="$widthm1,0" ;;
		e|east)          coords="$widthm1,$midheight" ;;
		se|southeast)    coords="$widthm1,$heightm1" ;;
		s|south)         coords="$midwidth,$heightm1" ;;
		sw|southwest)    coords="0,$heightm1" ;;
		w|west)          coords="0,$midheight" ;;
		*)  errMsg "--- INVALID COORDS ---" ;;
	esac
	bcolor=`convert $dir/tmpI.mpc -format "%[pixel:u.p{$coords}]" info:`
fi
#echo "bcolor=$bcolor;"

# set up for graphic
if [ "$graphic" = "yes" ]; then
	gfile="+write ${inname}_graphic.png"
else
	gfile=""
fi

# set up floodfill
if [ "$im_version" -ge "07000000" ]; then
	matte_alpha="alpha"
else
	matte_alpha="matte"
fi

# floodfill to threshold
# filter small objects with CCL
# get convex hull and draw white filled polygon
# then get its axis aligned bounding box
bbox=`convert $dir/tmpI.mpc \
	-write mpr:img \
	-fuzz $fuzzval% -fill none -draw "$matte_alpha $coords floodfill" \
	-fill white +opaque none -fill black +opaque white \
	-type bilevel \
	\
	-define connected-components:exclude-header=true \
	-define connected-components:mean-color=true \
	-define connected-components:area-threshold=$areathresh \
	-connected-components 8 \
	\
	+write $dir/tmpM.mpc \
	\
	-format "%@" info:- | tr "x" "+"`

# save mask
if [ "$graphic" = "mask" -o "$graphic" = "both" ]; then
	convert $dir/tmpM.mpc "${inname}_mask.gif"
fi

#echo $bbox
wd=`echo "$bbox" | cut -d+ -f1`
ht=`echo "$bbox" | cut -d+ -f2`
xo=`echo "$bbox" | cut -d+ -f3`
yo=`echo "$bbox" | cut -d+ -f4`
xl=$((xo+wd-1))
yl=$((yo+ht-1))
#echo "wd=$wd; ht=$ht; xo=$xo; yo=$yo; xl=$xl; yl=$yl;"

# find the intersections of the bounding rectangle with extreme limits of the image as follows:
# crop first and last row and column and find the first non-zero (or white) pixel on each
# add offsets back in
lt=`convert $dir/tmpM.mpc \
	-crop 1x${ht}+${xo}+${yo} +repage \
	-define identify:locate=maximum \
	-define identify:limit=1 \
	-verbose info: | tail -n +2 | sed 's/[;]//g' | \
	awk -v xoff="$xo" -v yoff="$yo" '{OFS = ","; split($4,a,","); print xoff,a[2]+yoff}'`
#echo "lt=$lt"

tp=`convert $dir/tmpM.mpc \
	-crop ${wd}x1+${xo}+${yo} +repage \
	-define identify:locate=maximum \
	-define identify:limit=1 \
	-verbose info: | tail -n +2 | sed 's/[;]//g' | \
	awk -v xoff="$xo" -v yoff="$yo" '{OFS = ","; split($4,a,","); print a[1]+xoff,yoff}'`
#echo "tp=$tp"

rt=`convert $dir/tmpM.mpc \
	-crop 1x${ht}+${xl}+${yo} +repage \
	-define identify:locate=maximum \
	-define identify:limit=1 \
	-verbose info: | tail -n +2 | sed 's/[;]//g' | \
	awk -v xoff="$xl" -v yoff="$yo" '{OFS = ","; split($4,a,","); print xoff,a[2]+yoff}'`
#echo "rt=$rt"

bm=`convert $dir/tmpM.mpc \
	-crop ${wd}x1+${xo}+${yl} +repage \
	-define identify:locate=maximum \
	-define identify:limit=1 \
	-verbose info: | tail -n +2 | sed 's/[;]//g' | \
	awk -v xoff="$xo" -v yoff="$yl" '{OFS = ","; split($4,a,","); print a[1]+xoff,yoff}'`
#echo "bm=$bm"

# save vertices
if [ "$graphic" = "vertices" -o "$graphic" = "both" ]; then
	convert $dir/tmpI.mpc -fill "$gcolor" \
		-draw "translate $lt circle 0,0 1,0" \
		-draw "translate $tp circle 0,0 1,0" \
		-draw "translate $rt circle 0,0 1,0" \
		-draw "translate $bm circle 0,0 1,0" \
		"${inname}_vertices.png"
fi

# compute top-left to bottom-right and bottom-left to top-right dimensions
# as average from opposite sides
computeDistance "$tp" "$rt"
dist1=$dist
computeDistance "$lt" "$bm"
dist2=$dist
dist_tl2br=`convert xc: -format "%[fx:($dist1+$dist2)/2]" info:`

computeDistance "$lt" "$tp"
dist1=$dist
computeDistance "$bm" "$rt"
dist2=$dist
dist_bl2tr=`convert xc: -format "%[fx:($dist1+$dist2)/2]" info:`

# get larger and smaller distances
dist_max=`convert xc: -format "%[fx:max($dist_tl2br, $dist_bl2tr)]" info:`
dist_min=`convert xc: -format "%[fx:min($dist_tl2br, $dist_bl2tr)]" info:`

# match min and max distances to tl2br or bl2tr distances
test=`convert xc: -format "%[fx:(abs($dist_max-$dist_tl2br)<(abs($dist_min-$dist_tl2br)))?1:0]" info:`
if [ $test -eq 1 ]; then
	tl2br="max_dist"
	bl2tr="min_dist"
else
	tl2br="min_dist"
	bl2tr="max_dist"
fi

#echo "$dist_tl2br; $dist_bl2tr; $dist_max; $dist_min"

# set up for kind
if [ "$kind" = "rigid" ]; then
	kind="rigidAffine"
else
	kind="Affine"
fi

# set up for extra rotation
if [ "$rotate" = "0" ]; then
	rotating=""
elif [ "$rotate" = "90" ]; then
	rotating="-rotate 90"
elif [ "$rotate" = "180" ]; then
	rotating="-rotate 180"
elif [ "$rotate" = "270" ]; then
	rotating="-rotate 270"
fi

# unrotate
if [ "$mode" = "clockwise" ]; then
	in_pts="$lt $tp $rt $bm"
	wd=$dist_bl2tr
	ht=$dist_tl2br
	#echo "wd=$wd; ht=$ht;"
	wdm1=`convert xc: -format "%[fx:$wd-1]" info:`
	htm1=`convert xc: -format "%[fx:$ht-1]" info:`
	out_pts="0,0 $wdm1,0 $wdm1,$htm1 0,$htm1"
	mergePoints "$in_pts" "$out_pts"
	control_pts=$cpts
	#echo "cp=$control_pts"
	convert $dir/tmpI.mpc \
		-set option:distort:viewport "${wd}x${ht}+0+0" \
		-mattecolor "$bgcolor" \
		-background "$bgcolor" \
		-virtual-pixel background \
		+distort $kind "$control_pts" \
		$rotating \
		"$outfile"

elif [ "$mode" = "counterclockwise" ]; then
	in_pts="$tp $rt $bm $lt"
	wd=$dist_tl2br
	ht=$dist_bl2tr
	#echo "wd=$wd; ht=$ht;"
	wdm1=`convert xc: -format "%[fx:$wd-1]" info:`
	htm1=`convert xc: -format "%[fx:$ht-1]" info:`
	out_pts="0,0 $wdm1,0 $wdm1,$htm1 0,$htm1"
	mergePoints "$in_pts" "$out_pts"
	control_pts=$cpts
	#echo "cp=$control_pts"
	convert $dir/tmpI.mpc \
		-set option:distort:viewport "${wd}x${ht}+0+0" \
		-mattecolor "$bgcolor" \
		-background "$bgcolor" \
		-virtual-pixel background \
		+distort $kind "$control_pts" \
		$rotating \
		"$outfile"

elif [ "$mode" = "landscape" ]; then
	if [ "$tl2br" = "max_dist" ]; then
		in_pts="$tp $rt $bm $lt"
	else
		in_pts="$lt $tp $rt $bm"
	fi
	wd=$dist_max
	ht=$dist_min
	#echo "wd=$wd; ht=$ht;"
	wdm1=`convert xc: -format "%[fx:$wd-1]" info:`
	htm1=`convert xc: -format "%[fx:$ht-1]" info:`
	out_pts="0,0 $wdm1,0 $wdm1,$htm1 0,$htm1"
	mergePoints "$in_pts" "$out_pts"
	control_pts=$cpts
	#echo "cp=$control_pts"
	convert $dir/tmpI.mpc \
		-set option:distort:viewport "${wd}x${ht}+0+0" \
		-mattecolor "$bgcolor" \
		-background "$bgcolor" \
		-virtual-pixel background \
		+distort $kind "$control_pts" \
		$rotating \
		"$outfile"

elif [ "$mode" = "portrait" ]; then
	if [ "$tl2br" = "min_dist" ]; then
		in_pts="$tp $rt $bm $lt"
	else
		in_pts="$lt $tp $rt $bm"
	fi
	wd=$dist_min
	ht=$dist_max
	#echo "wd=$wd; ht=$ht;"
	wdm1=`convert xc: -format "%[fx:$wd-1]" info:`
	htm1=`convert xc: -format "%[fx:$ht-1]" info:`
	out_pts="0,0 $wdm1,0 $wdm1,$htm1 0,$htm1"
	mergePoints "$in_pts" "$out_pts"
	control_pts=$cpts
	#echo "cp=$control_pts"
	convert $dir/tmpI.mpc \
		-set option:distort:viewport "${wd}x${ht}+0+0" \
		-mattecolor "$bgcolor" \
		-background "$bgcolor" \
		-virtual-pixel background \
		+distort $kind "$control_pts" \
		$rotating \
		"$outfile"

elif [ "$mode" = "smallest" ]; then
	computeAbsAngle "$tp" "$rt"
	angle1a=$angle
	computeAbsAngle "$lt" "$bm"
	angle1b=$angle
	angle1=`convert xc: -format "%[fx:($angle1a + $angle1b)/2]" info:`
	computeAbsAngle "$tp" "$lt"
	angle2a=`convert xc: -format "%[fx:180-$angle]" info:`
	computeAbsAngle "$rt" "$bm"
	angle2b=`convert xc: -format "%[fx:180-$angle]" info:`
	angle2=`convert xc: -format "%[fx:($angle2a + $angle2b)/2]" info:`
	#echo "angle1a=$angle1a; angle1b=$angle1b; angle1=$angle1; angle2a=$angle2a; angle2b=$angle2b; angle2=$angle2;"
	test=`convert xc: -format "%[fx:($angle1<$angle2)?1:0]" info:`
	if [ $test -eq 1 ]; then
		# rotate counterclockwise
		in_pts="$tp $rt $bm $lt"
		wd=$dist_tl2br
		ht=$dist_bl2tr
	else
		# rotate clockwise
		in_pts="$lt $tp $rt $bm"
		wd=$dist_bl2tr
		ht=$dist_tl2br
	fi
	#echo "wd=$wd; ht=$ht;"
	wdm1=`convert xc: -format "%[fx:$wd-1]" info:`
	htm1=`convert xc: -format "%[fx:$ht-1]" info:`
	out_pts="0,0 $wdm1,0 $wdm1,$htm1 0,$htm1"
	mergePoints "$in_pts" "$out_pts"
	control_pts=$cpts
	#echo "cp=$control_pts"
	convert $dir/tmpI.mpc \
		-set option:distort:viewport "${wd}x${ht}+0+0" \
		-mattecolor "$bgcolor" \
		-background "$bgcolor" \
		-virtual-pixel background \
		+distort $kind "$control_pts" \
		$rotating \
		"$outfile"

elif [ "$mode" = "aspect" ]; then
	test=`convert $dir/tmpI.mpc -format "%[fx:w/h<1?1:0]" info:`
	if [ $test -eq 1 ]; then
		# portrait
		if [ "$tl2br" = "min_dist" ]; then
			in_pts="$tp $rt $bm $lt"
		else
			in_pts="$lt $tp $rt $bm"
		fi
		wd=$dist_min
		ht=$dist_max
	else
		# landscape
		if [ "$tl2br" = "max_dist" ]; then
			in_pts="$tp $rt $bm $lt"
		else
			in_pts="$lt $tp $rt $bm"
		fi
		wd=$dist_max
		ht=$dist_min
	fi
	#echo "wd=$wd; ht=$ht;"
	wdm1=`convert xc: -format "%[fx:$wd-1]" info:`
	htm1=`convert xc: -format "%[fx:$ht-1]" info:`
	out_pts="0,0 $wdm1,0 $wdm1,$htm1 0,$htm1"
	mergePoints "$in_pts" "$out_pts"
	control_pts=$cpts
	#echo "cp=$control_pts"
	convert $dir/tmpI.mpc \
		-set option:distort:viewport "${wd}x${ht}+0+0" \
		-mattecolor "$bgcolor" \
		-background "$bgcolor" \
		-virtual-pixel background \
		+distort $kind "$control_pts" \
		$rotating \
		"$outfile"

fi

exit 0


